DE19922250A1 - Connectors - Google Patents

Abstract

A connector for light guides (34) comprises two pluggable, interlockable connector parts (16, 18), of which at least one (16) is provided with at least one optical ferrule (10) which, when the connector parts (16, 18) are plugged together, against one of the other connector part associated stop surface (24) is held. A locking device (42) is provided, by means of which the ferrule (10) can be locked directly with the other connector part (18) independently of the locking of the two connector parts (16, 18) and can thus be fixed thereon.

Description

The invention relates to a connector for light guides, with two connectable, interlockable connector parts from de at least one with at least one optical ferrule, i.e. H. one optical terminal, is provided when the connector is plugged together against a stop surface assigned to the other connector part che is held.

The functionality of fiber optic connectors of the beginning named type is from the mutual alignment of the optical compo dependent. An incorrect alignment of these components can lead to greater light losses and consequently the functionality of the entire light guide system. While the radial Tolerances for example by guiding the optical components in a cylinder or other common rail usually can be easily maintained is compliance with the axial Tolerances, d. H. the axial distances between the two optical Components, relatively difficult because of the locking system of the connector are dependent. It has been shown that tighter axial Tolerances of, for example, approximately ± 0.2 mm are practically no longer present can be held when the position of the optical ferrule by the Connector lock is determined.  

The invention is therefore based on the object of a connector to create the type mentioned, in which the opti tolerance range resulting in simple and reliable Way is kept as small as possible. In particular, the in Tolerance range resulting in the axial direction is kept as small as possible become.

This object is achieved according to the invention in that a Verrie gelungsvorrichtung is provided, via which the ferrule regardless of the locking of the two connector parts directly with the other Ver Binder part can be locked and thus fixed to it.

Due to this training, the optical functi on resulting tolerance range reduced to a minimum, so that after a respective plugging together of the connector parts always an optimal Function is guaranteed. In particular, regarding the optical Tolerance range resulting in function in the axial direction is significantly reduced device. After the ferrule regardless of the locking of the two Connector parts lockable directly with the other connector part and there the axial tolerances are also independent from the locking of the two connector parts. The two optical ele elements can thus be positioned very precisely relative to one another. In particular, axial tolerances can thus be smaller or equal ± 0.2 mm are observed. One of the two independently The locks provided thus serve to lock the ferrule while maintaining the closest possible tolerances to achieve a possible optimal optical function, while the other lock for Coupling of the two connector parts is provided and to comply with  usual tolerances can be designed. With the specified two-stage Locking can impair the optical function deviations can be compensated for in an optimal way. The invent Double lock according to the invention is practical for everyone in particular connectors suitable in the automotive field.

The connector part assigned to the optical ferrule may be for example, a plug-in part and the other connector part act for example a recording part or a so-called header. The other connector part can also be a mutual connection for in-line housing for optical cables or optical fibers include, as usual with plug systems from a plug and a Coupling can be formed. Basically, the ferrule can also be used an associated with the other connector part, fixable in this Alignment element can be locked.

In a preferred embodiment of the plugver according to the invention Binder, the locking device is designed so that the locks development of the ferrule in the course of a relative displacement of ferrule and to ordered connector part is done automatically. It is an advantage here if the locking of the ferrule with the other connector part in the ver course of putting the two connector parts together before the ge mutual locking of the connector parts. The two of each other independent interlocks are thus effective one after the other sam.  

It is also advantageous if the one inserted into the assigned connector part Ferrule with another after the contact on the stop surface Put the two connector parts together against a spring force slidable relative to the associated connector part and in the course this relative displacement of the ferrule and associated connector part can be locked with the other connector part. The ferrule can for example by a Federele made of rubber or metal be supported in the associated connector part.

In a convenient practical embodiment, the Verrie includes gelungsvorrichtung a resilient assigned to the other connector part Locking element that in the course of a relative displacement of Fer rule and assigned connector part against the spring force with a the ferrule provided locking surface can be brought into engagement. There at the resilient locking element is preferably over at least a latch provided on the connector part arranged on the ferrule can be brought into engagement with the locking surface. Such Locking ramp can in particular on a housing inner wall of the relevant connector part may be arranged.

The locking element is expediently by at least one Spring wire formed, which can in particular be bent like a bow. There at such a spring wire bracket is expedient from one next generally formed U-shaped spring wire whose legs kel extend generally in the plug-in or axial direction and its free ends generally bent in the transverse direction and against the Fe derkraft are compressible to the provided on the ferrule Locking surface to engage. Especially for a better location  tion of the spring wire bracket can also the web area of this bracket all be turned generally in the transverse direction.

The locking surface is preferably provided by a on the ferrule seen groove formed, which is in particular a circumferential groove can act. When using a spring wire bracket, its Then ends in particular from two opposite sides Circumferential groove are introduced.

In a preferred practical embodiment of the invention ßen connector, the other connector part includes an alignment rich, that with mated connector parts in plug-in or axial direction between the ferrule and a counter element, such as in particular an electro-optical module or another, in the other connection the partially inserted optical ferrule is arranged. In this case the stop surface is assigned to this alignment area. The alignment rich can be integrated in the other connector part. Basically However, this alignment area can also be changed by another connection the part assigned, in this fixable alignment element realized his.

In an expedient embodiment, the counter element is against egg ne opposite the stop surface for the ferrule of the alignment area.

The invention is un based on an embodiment ter explained in more detail with reference to the drawing; in this show:  

Fig. 1 is a schematic, partly sectioned side view of two egg nes connector parts comprising the connector prior to mating of the two connector parts,

Fig. 2 is a schematic, perspective view of the Steckver binders in the position shown in Fig. 2 phase, wherein the female connector, the ferrule part is omitted and only its locking ramps are indicated,

Is a schematic, partially sectioned side view of the connector, the two connector parts are plugged together so far that the ferrule stop surface on the at present. 3,

Fig. 4 is a schematic, perspective view of the binder in the Steckver in FIG. 3 phase shown, the female connector, the ferrule part is again omitted,

5 is a schematic, partially sectioned side view of the connector, the two connector parts are plugged together so far that the ferrule is locked to the connector part on its Fig.

Fig. 6 is a schematic, perspective view of the binder in the Steckver in FIG. Phase shown 5, wherein the ferrule female connector part is again omitted,

Fig. 7 is an enlarged partial view of the connector in egg ner phase immediately before locking the ferrule and

Fig. 8 is an enlarged partial view of the connector in egg ner phase, in which the ferrule is already locked with the other connector part Ver.

Figs. 1 to 8 show in schematic, partially sectioned lung depicting an optical fiber connector having two matable with each other lockable connector parts 16, 18. In the present case, the one connector part 16 is provided with two optical, ferrule-like ferrules 10 . In the other connector part 18 , two electro-optical modules 12 are accommodated. An electro-optical module is to be understood as an arbitrarily designed module in which optical signals are converted into electrical signals and / or electrical signals into optical signals.

The optical ferrules 10 receiving connector part 16 can be provided for example as a plug-in part and the electro-optical modules 12 receiving connector part 18, for example as a receiving part. The connector part 16 can thus be provided in particular as a so-called header. However, this connector part 16 can in principle also comprise an in-line housing which serves for the mutual connection of optical cables or light guides, and an insertion part can be inserted into each of the two ends.

When the connector parts 16 , 18 are plugged together, the optical ferrules 10 and the electro-optical modules 12 opposite them as counter-elements are mutually aligned via an alignment area 14 , which is integrated in the connector part 18 in the present case. In principle, however, such an alignment area can also be realized, for example, by an alignment element which can be fixed in the connector part 18 . When connector parts 16 , 18 are plugged together, the aligning region 14 is arranged in the plug-in or axial direction x between the optical ferrules 10 and the electro-optical modules 12 . The alignment region 14 has openings 20 through which a respective axial extension 22 of the optical ferrules extends. On mutually opposite sides, the alignment region 14 is provided with stop surfaces 24 and 26 extending transversely to the axial direction x, against which the two optical ferrules 10 and the two electro-optical modules 12 abut when connector parts 16 , 18 are plugged together. The optical ferrules 10 and the electro-optical modules 12 can in particular be held resiliently against the stop surfaces 24 and 26 in question.

As can be seen in particular with reference to FIGS. 2, 4 and 6, the electro-optical modules 12 are each provided with a plug-in receptacle 32 , into which, when connector parts 16 , 18 are plugged together, the bevel 40 provided with a free end of the axial extension 22 relates to the protrudes into the optical ferrule 10 . Within the plug-in receptacles 32 of the electro-optical modules 12 , the relevant light guide end is then opposite the relevant optical output of the respective electro-optical modules 12 .

As already mentioned, the respective counter element can also be formed by an optical ferrule instead of an electro-optical module 12 , which can for example have the same structure as the ferrules 10 accommodated in the connector part 16 . In this case, the connector part 18 can thus comprise an in-line housing for the mutual connection of optical cables, at the two ends of which an insert part 16 can be inserted in each case.

As can be seen in particular from FIGS. 2, 4 and 6, the electro-optical modules 12 are held against the stop surfaces 24 for the optical ferrules 10 opposite stop surfaces 26 of the alignment region 14 .

The ferrule-like optical ferrules 10 move when the two connector parts 16 , 18 are plugged together against the relevant stop face 24 of the alignment region 14 . In the present case, the relevant pressing means comprise at least one spring element 28 , via which the optical ferrules 10 are supported on the rear wall 30 of the connector part 16 (cf. in particular FIGS. 1, 3 and 5). The two optical ferrules 10 separate spring elements 28 or a ge common spring element 28 can be assigned.

As can best be seen from FIGS . 1 and 2, the optical ferrules 10 are each provided with an annular flange 36 which has a radial end face 38 with which the respective ferrule 10 on the stop face 24 of the alignment region 14 in Facility is coming.

The light guides 34 provided with the optical ferrules 10 can be seen in FIGS . 2 to 6.

A locking device 42 is provided for the two optical ferrules 10 , by means of which the ferrules 10 can be locked and fixed directly to the other connector part 18 independently of the locking for the two connector parts 16 , 18 .

This locking device 42 is designed so that the locking of the ferrules 10 takes place automatically in the course of a relative displacement between the Ferru les 10 and the associated connector part 16 . In addition, in the present case the ferrules 10 are locked in the course of the plugging together of the two connector parts 16 , 18 before the mutual locking of the connector parts 16 , 18 .

The optical ferrules 10 inserted in the associated connector part 16 are after abutment against the respective stop surface 24 of the position registering 14 with a further mating of the two connector parts 16, 18 against the force of the respective spring element 28 slidable relative to the associated connector part 16 and in the course of these Relative displacement of ferrules 10 and associated connector part 16 can be locked with the other connector part 18 .

For this purpose, the locking device 42 includes a the other connec derteil 18 associated resilient locking element 44 , which in the United course of the relative displacement of ferrules 10 and associated connec derteil 16 against the spring force with a provided on the respective ferrule 10 locking surface 46 'can be brought into engagement.

In the present case, the resilient locking element 44 via inner half of the connector part 16 provided, firmly connected thereto Ver Reset of ramps 48 with the locking surface 46 engageable.

In the present exemplary embodiment, the locking element 44 is formed by a spring wire bent in a bow-like manner. This water spring wire clip 44 consists of an initially generally U-shaped bent spring wire, the legs of which generally extend in the plug-in or axial direction device x and the free ends 50 , 52 of which are bent generally in the transverse direction and can be pressed against the spring force in order to the provided on the ferrule 10 locking surfaces 46 'in a handle to contact. As can be seen in particular from FIGS. 2, 4 and 6, the web area 54 of the spring wire bracket 44 can also be bent generally in the transverse direction.

In the present case, the locking surface 46 'provided on a respective optical ferrule 10 is formed by a groove provided on the relevant ferrule 10 , namely a circumferential groove 46 .

As can be seen in particular with reference to FIGS. 7 and 8, the bent free ends 50 , 52 of the spring wire bracket 44 cooperating with the circumferential groove 46 are guided in a radial slot 56 provided in the connector part 16 .

The locking device 42 assigned to the optical ferrules 10 can be introduced during the assembly of the plug connector, for example, into an optical cavity formed in particular by a molded part or the like.

Figs. 1 and 2 show the connector in a phase before the sammenstecken to the two connector parts 16, 18. The spring element 28 is still relaxed in this case.

If the two connector parts 16 , 18 are plugged together, the optical ferrules 10 first come into contact with the stop faces 24 of the other connector part 18 (cf. FIGS. 3 and 4). The or the spring elements 28 are still relaxed. The optical ferrules 10 thus continue to assume their front starting position within the housing of the connector part 16 , in which, for example according to FIG. 3, they are displaced farthest to the right relative to the connector part 16 .

Fig. 7 shows an enlarged fragmentary view of the connector in a phase immediately before the locking of the ferrules 10 degrees. The bent free ends 50 , 52 of the spring clip 44 are therefore still outside the circumferential groove 46 of the ferrules 10 .

If the two connector parts 16 , 18 are now plugged further together, the two bent free ends 50 , 52 of the spring clip 44 are pressed together by the locking ramps 48 provided on the inside of the connector part 16 and inserted into the circumferential grooves 46 of the optical ferru les 10 (cf. in particular the Fig. 5, 6 and 8). They are guided within the slot 56 provided in the other connector part 18 (cf. in particular FIGS. 7 and 8). Thus, the two come from bent free spring ends 50, 52 locking surfaces formed in contact with the grooves through the perimeter 46 46 '(see FIG. In particular FIG. 8). As can be seen from FIGS. 7 and 8, these locking surfaces 46 'of the cross-sectionally generally U-shaped circumferential grooves 46 have a curved course in the present case.

The optical ferrules 10 are locked in time before locking the housing of the two connector parts 16 , 18 . The locking associated with these two connector parts 16 , 18 is provided with the reference number 58 in FIG. 5 and is only indicated by an arrow.

The relevant tolerances result from the present version example only by the respective dimensions of the elek trooptic modules, the header, the spring and the ferrules. The Fer rules are fixed on the second connector part. Even with a match the tensile load is excluded that any disturbing gap occurs. After the entire coupling process in one movement he can follow, the connector is very easy to use.  

Reference list

10th

optical ferrule

12th

electro-optical module

14

Alignment area

16

Connector part

18th

Connector part

20th

opening

22

axial approach

24th

Stop surface

26

Stop surface

28

Spring element

30th

Back wall

32

Socket

34

Light guide

36

Ring flange

38

radial face

40

bevel

42

Locking device

44

resilient locking element, spring wire bracket

46

Circumferential groove

46

'' Locking surface

48

Locking ramp

50

free spring end

52

free spring end

54

Dock area

56

slot

58

Lock for connector parts
x plug-in or axial direction

Claims (14)

1. Connector for light guide, with two pluggable, mutually lockable connector parts ( 16 , 18 ), of which at least one ( 16 ) is provided with at least one optical ferrule ( 10 ), which when plugged together connector parts ( 16 , 18 ) against one the other connector part ( 18 ) associated stop surface ( 24 ) is held, characterized in that a locking device ( 42 ) is provided, via which the ferrule ( 10 ) independently of the locking ( 58 ) of the two connector parts ( 16 , 18 ) directly verrie gelbar with the other connector part ( 18 ) and thus fixable on this. 2. Connector according to claim 1, characterized in that the locking device ( 42 ) is designed so that the locking of the ferrule ( 10 ) takes place automatically in the course of a relative displacement of the ferrule ( 10 ) and associated connector part ( 16 ). 3. Connector according to claim 2, characterized in that the locking of the ferrule ( 10 ) with the other connector part ( 18 ) takes place in the course of plugging together the two connector parts ( 16 , 18 ) before the mutual locking of the connector parts ( 16 , 18 ) . 4. Connector according to one of the preceding claims, characterized in that the ferrule ( 10 ) used in the associated connector part ( 16 ) after contact with the stop face ( 24 ) with a wide ren plugging the two connector parts ( 16 , 18 ) against one Spring force relative to the associated connector part ( 16 ) is slidable and in the course of this relative displacement of ferrule ( 10 ) and associated connector part ( 16 ) with the other connector part ( 18 ) can be locked. 5. Connector according to one of the preceding claims, characterized in that the locking device ( 42 ) comprises a the other connector part ( 18 ) associated with the resilient locking element ( 44 ) which in the course of a relative displacement of the ferrule ( 10 ) and associated connector part ( 16 ) counter to the spring force can be brought into engagement with a locking surface ( 46 ) provided on the ferrule ( 10 ). 6. Connector according to claim 5, characterized in that the resilient locking element ( 44 ) via at least one on the ferrule ( 10 ) associated connector part ( 16 ) provided locking ramp ( 48 ) with the locking surface ( 46 ) can be brought into engagement. 7. Connector according to claim 5 or 6, characterized in that the locking element ( 44 ) is formed by at least one spring wire. 8. Connector according to claim 7, characterized, that the spring wire is bent like a bow. 9. Connector according to claim 8, characterized in that the spring wire clip ( 44 ) is formed from an initially generally U-shaped bent spring wire, the legs of which generally extend in the plug-in or axial direction (x) and the free ends ( 50 , 52 ) are bent generally in the transverse direction and can be compressed against the spring force in order to engage the locking surface ( 46 ') provided on the ferrule ( 10 ). 10. Connector according to claim 9, characterized in that the web area ( 54 ) of the spring wire clip ( 44 ) is bent generally in the transverse direction. 11. Connector according to one of the preceding claims, characterized in that the locking surface ( 46 ') is formed by a on the ferrule ( 10 ) before seen groove ( 44 ). 12. Connector according to claim 11, characterized in that the groove is formed by a circumferential groove ( 46 ). 13. Connector according to one of the preceding claims, characterized in that the other connector part ( 18 ) comprises an alignment area ( 14 ) which, when the connector parts ( 16 , 18 ) are plugged together, in the plug-in or axial direction (x) between the ferrule ( 10 ) and a Ge gene element ( 12 ) such as in particular an electro-optical module ( 12 ) or a further optical ferrule inserted into the other connector part ( 18 ) is arranged, and that the stop surface ( 24 ) is assigned to the alignment area ( 14 ). 14. Connector according to one of the preceding claims, characterized in that the counter element ( 12 ) against an abutment surface ( 24 ) for the ferrule ( 10 ) opposite abutment surface ( 26 ) of the alignment area ( 14 ) is held.